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I get an 16 Bit integer from C. This integer consists of 16 flags.

How can I convert this integer in a record of 16 booleans?


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Is this question about Ada or C? – Yuki Izumi Jul 10 '12 at 7:43
This question is about ada. I get an short Integer from C passed to ada. Now i use Unchecked_Conversion to convert short integer to record. – user1513906 Jul 10 '12 at 13:43
Thanks for clarifying; this should help you get better answers. – Yuki Izumi Jul 10 '12 at 14:14
I've removed the C tag, since it is confusing some people into giving answers in C, which you don't want. – JeremyP Jul 10 '12 at 14:21

6 Answers 6

type Flags is record
   Flag1 : Boolean;
   Flag2 : Boolean;
   - ...
   Flag15 : Boolean;
end record;

for Flags use record
   Flag1  at 0 range 0 .. 0;
   Flag2  at 0 range 1 .. 1;
   -- ...
   Flag15 at 0 range 15 .. 15;
 end record;
 for Flags'Size use 16;

 -- This is vital, because normally, records are passed by-reference in Ada.
 -- However, as we use this type with C, it has to be passed by value.
 -- C_Pass_By_Copy was introduced in GNAT and is part of the language since Ada 2005.
 pragma Convention (C_Pass_By_Copy, Flags);

You can use this type directly in the declaration of the imported C function instad of the C integer type.

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You can just simply perform 16 right bit shifts and bitwise AND the result with 1 to determine whether or not a bit/flag is set. Here's an example (I'm hoping this isn't homework):

#include <stdio.h>
#include <stdint.h>

typedef unsigned char BOOL;

int main(void)
   unsigned i;
   uint16_t flags = 0x6E8B; /* 0b0110111010001011 */
   BOOL arr[16];

   for (i = 0; i < 16; i++) {
      arr[i] = (flags >> i) & 1;
      printf("flag %u: %u\n", i+1, arr[i]);

   return 0;

arr[0] will contain the least significant bit, and arr[15] the most significant.


flag 1: 1
flag 2: 1
flag 3: 0
flag 4: 1
flag 5: 0
flag 6: 0
flag 7: 0
flag 8: 1
flag 9: 0
flag 10: 1
flag 11: 1
flag 12: 1
flag 13: 0
flag 14: 1
flag 15: 1
flag 16: 0
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Why don't you use memcpy? – tim-oleksii Jul 10 '12 at 7:12
@tim-oleksii: What exactly would you use memcpy for? – AusCBloke Jul 10 '12 at 7:13
thx but i need it for ada. Sorry for that mistake. It was my first post here. – user1513906 Jul 10 '12 at 13:48

In Ada, you can usually declare an imported function to take parameters or return values of the type you want, rather than a C-equivalent type which you then have to convert.

So, here, you want

type Flags is array (0 .. 15) of Boolean;
for Flags'Component_Size use 1;
for Flags'Size use 16;
pragma Convention (C, Flags);

and you can declare your function as

function Get_Flags return Flags;
pragma Import (C, Get_Flags, “get_flags");

which with

unsigned short get_flags(void) {
  return 0x6e8b;

and a simple harness gave me

flag 0 is TRUE
flag 1 is TRUE
flag 2 is FALSE
flag 3 is TRUE
flag 4 is FALSE
flag 5 is FALSE
flag 6 is FALSE
flag 7 is TRUE
flag 8 is FALSE
flag 9 is TRUE
flag 10 is TRUE
flag 11 is TRUE
flag 12 is FALSE
flag 13 is TRUE
flag 14 is TRUE
flag 15 is FALSE

As Bo Persson noted, this is fine so long as your code only needs to run on a little-endian machine. If you want it to run on a SPARC or a Powerbook, it’s probably best to use trashgod’s suggestion;

subtype Flags is Interfaces.C.unsigned_short;
use type Flags;

function Get_Flags return Flags;
pragma Import (C, Get_Flags, "get_flags");

and then, probably, name your flag bits (with something more meaningful!)

Flag_3 : constant Flags := 2#0000_0000_0000_1000#;

or (probably more like the C)

Flag_4 : constant Flags := 2 ** 4;

and then check

(Get_Flags and Flag_3) /= 0
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@flyx pointed out that Ada passes records to C by reference unless you tell it pragma Convention (C_Pass_By_Copy). Ada also passes arrays to C by reference, but you can’t apply C_Pass_By_Copy to arrays, which is annoying. – Simon Wright Jul 10 '12 at 17:08

In Ada, a modular type allows logical operations to access a value as a bit set. Introduced in Ada 95, an overview may be found in the Ada 95 Rationale, §3.3.2 Modular Types. Depending on implementation, the pre-defined type Interfaces.C.unsigned_short my be a convenient choice for obtaining the value from C.

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Interfaces.C.unsigned_short ... – Simon Wright Jul 10 '12 at 14:02
+1. Even though this isn't what he asked for, its likely what he needs to do. – T.E.D. Jul 10 '12 at 16:39

You can also use overlaying to achieve the desired result; let's assume that these booleans are all meaningful and strictly boolean (i.e. nothing that's an enumeration).

First you need to define your record; I'm going to be using a single Nybble to illustrate, but the principle is applicable. The Nybble is the old DOS attributes: reading (visibility-wise; should be Is_Hidden, in retrospect), write, archive, and system.

Type Nyble_Data is mod 2**4;
For Nyble_Data'Size use 4;

Type Data_Record is record
    Can_Read, Can_Write, Is_Archived, Is_System : Boolean:= False;
end record;

-- Ensure 4 bits used.
pragma Pack (Data_Record);
For Data_Record'Size use 4;

-- Specify Layout.
For Data_Record use
        Can_Read    at 0 range 0..0;
        Can_Write   at 0 range 1..1;
        Is_Archived at 0 range 2..2;
        Is_System   at 0 range 3..3;
    end record;

-- This is where the magic occurs.
Function Convert( Data : In Nyble_Data ) Return Data_Record is
    Result : Data_Record;
    For Result'Address use Data'Address;
    Pragma Import( Convention => Ada, Entity => Result );
    Pragma Inline( Convert );
    Return Result;
end Convert;

-- Test variables.
Input   : Nyble_Data:= 5;
Output  : Data_Record:= Convert(Input);

-- Display the record.
Procedure Put( Data : In Data_Record ) is
    Use Ada.Text_IO;
    Put_Line( "Read:   "    & ASCII.HT & Boolean'Image(Data.Can_Read) );
    Put_Line( "Write:  "    & ASCII.HT & Boolean'Image(Data.Can_Write) );
    Put_Line( "Archive:"    & ASCII.HT & Boolean'Image(Data.Is_Archived) );
    Put_Line( "System: "    & ASCII.HT & Boolean'Image(Data.Is_System) );
end Put;
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Recently on comp.lang.ada Randy Brukhardt wrote "it's just like overlaying objects using address clauses -- it might work, but its still wrong and there is no guarentee that a newer compiler version will not break such things.” Unchecked_Conversion is preferred. – Simon Wright Jul 11 '12 at 8:02

You can use a union containing a short int (or a int_16) and a bit field:

union UMyFlags {
    short n;
    struct {
        flag_1 : 1;
        flag_2 : 1;
        // other flags ...
    } flags;

However, because of byte ordering, your code will not be portable on every platform.

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Not only byte ordering differs, the order of the bit fields in the struct is also implementation dependent. – Bo Persson Jul 10 '12 at 10:26

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